Pneumatic self-playing musical instrument.



L. B. DOMAN. PNEUMATIC SELF PLAYING MUSIGAL INSTRUMENT.

. 'APP LIUATION FILED MAR.9,1905. 97,7 Patented May 26, 1914.

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PNEUMATIC SELF PLAYING MUSICAL INSTRUMENT. APPLIOATION FILED MAR-$1905. 1,097,706. Patented May 26, 1914.

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L. 'B. DOMAN. PNEUMATIC SELF PLAYING MUSICAL INSTRUMENT.

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I MHWESSES. w INVEEWTHJE ATTORNEY L. B. DOMAN. PNEUMATIC SELF PLAYING MUSICAL INSTRUMENT.

KPPLIUATIOK FILED MAR.9,1905. v 1,097,706. Patented May 26, 1914. I e sums-sum: 4.

wv W 32 4/ 32 fvzz W I IEJssEIs" I INVENTOR AT TQRNEY L. B. DOMAN. PNEUMATIC SELF PLAYING MUSIGAL' INSTRUMENT.

APPLICATION FILED MAB..9, 1905. v 1,097,706. Patented May 26, 1914.

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UNITED STATES PATENT OFFICE.

LEWIS B. DOMAN, OF ELBIRIDGE, NEW YORK, ASSIGNOR TO AMPHION PIANO PLAYER COMPANY, OF ELBRIDGE, NEW YORK, A CORPORATION OF NEW YORK.

PNEUMATIC SELF-PLAYING MUSICAL INSTRUMENT.

Specification of Letters Patent.

Patented May 26, 191-1.

Application filed March 9, 1905. Serial No. 249,250.

To all 107mm. it may C(HM'CIIZ Be it known that I, LEWIS B. DOMAIN, of Elbridge, in the county of Onondaga, in the State of New York, have invented new and use t'ul Improvements in Pneumatic Selfllaying Musical Instruments, of which the following, taken in connection with the accompanying drawings, is a full, clear, and exact description.

This invention relates to improvements in pneumatic self-playing musical instruments, and refers more particularly to the general structure of a pneumatic piano player in which the various specific elements, hereinafter dw scribed, contribute to render the operation comparatively simple and easy without material loss of power, and to enable the operator to produce an accurate rendition of any musical selection, either in accordance with the intention of the composer, or with the wishes of the operator.

The primary object is to combine the several pneumatic-actions in such compact manner as to bring the several elements into close relation, whereby the inclosing case maybe made to occupy a comparatively small space in front'and above the keyboard of the piano by assembling all of the primary pneumatics and their individual valves in a single valve-shelf and superposing the key-stril ing pneumatics directly above said valve-chest, and key-board of the piano. I

Another object is to flexibly connect the hey-striking pneumatics to the valvechest so as to obviate any liability of leakage, as distinguished from the rigid mounting of such pneumatics upon the valve-chest, in which case, the joints are always more or less liable to lealrby reason of the unequal shrinkage of the parts.

Another object is to inter'posc an expressionwontrolling-pneumatic between the exha ust device and key-act1on, and to provide for the step-by-step gradation of expression by mechanically connecting said pneumatic with a series of smaller pneumatics, one or more of which may be placed in communication with the exhaust device at the will of the operator to add more or less resistance to the action of the main expres- I sion controlling neumatics.

A further object isto provide a direct airpassage between the exhaust-device and keyaction with a pneumatic valve WhlCll 18 normally closed by atmospheric pressure and is automatically opened by closing its communication with atmosphere, thereby allowing the valve to open to throw the full force of the exhaust into the key-striking pneumatic to accent any individual note or chord which may be desired.

The foregoing objects relate more particularly to the key-action and its controlling mechanisms including the step-by-step gradation of expression or force from f to pp and vice versa, and also the means for accentuating individual notes or chords.

The feed of the music'sheet is controlled by a suitable pneumatic motor, and one of the objects in this connection is to enable the operator to control the tempo or speed of the feed of the music-sheet by varying the capacity of some part of the conduit leading from the exhaust device to the motor pneumatics and to thereby govern the ac tion of an auxiliary-valvepneumatic which is connected in andforms a part of such conduit to further regulate the action of the motor-pneumatics.

. Astill further object is to provide means under the control of the operator to reverse the feed of the music-sheet and simultaneously cut out the key action and tempo-controlling pneumatic from the exhausting device for the purpose of establishing direct communication between the exhaust device and motor pneumatics and thereby increasing the power and speed of action in rewinding the music-sheet.

Other more specific objects relating both to the pneu natic-key-action and to the pneumatic-motor-action will be brought out in the following description.

In the drawingsFigure 1 is a front elevation of my improved pneumatic 'pianoplayer, the greater part of the front wall of the inclosing-case being broken away to disclose the interior mechanism. Fig. 2 is a transverse vertical sectional view taken on line 2-2, Fig. 1. Fig. 3 is an enlarged transverse vertical sectional view taken on line 3-3, Fig. 1, except that I have shown the tracker-board as connected to the valvechest. the purpose of this view being to better illustrate the pneumatic key-action and its controlling mechanism, including its connection with the main exhausting device. Fig. 4 is an enlarged sectional view taken on line 44, Fig. 2, showing a portion of o the valve-chest and key-striking pneumat ics in front elevation, but the main purpose is to illustrate the expression controlling mechanism and main exhaust conduit lead- 5 ing to the key-action. Fig. 5 is an enlarged top plan of a portion of the valve-chest, portions thereof being broken away to dis closethe underlying mechanisms and pri mary pneumatics. Fig. 6 is a horizontal sectional view taken on line 6-6, Fig. 4,

showing the relative arrangement of the main exhaust conduit; expression-controlling pneumatic and its auxiliary governing pneumatics. Fig. 7 is a frontelevation,

partly in section, of the pneumatic motor action and its controlling mechanisms, including the maln govermng pneumatic and primary pneumatics which are shown in section. Fig. 8 is a sectional view taken on line 8 8, Fig.7. Fig. 9 is a top plan of a portion of a shelf 17 showing the upper opening --113 and a portion of its valve 120. Fig. 10 is an end view of the drivinggear for the winding and rewinding rollers I .25 of the music-sheet, as seen in front elevation in Fig.1. Fig. 11 is a sectional view taken on line 1111, Fig. 10. Fig. 12 is an enlarged sectional view of the connection between one of the key-striking pneumatics and its plunger rod. I

-A to permit access to, and to cover the music-sheet, and is also provided in its rear side with a' recess a for receiving a portion of the piano-key-board, as B; the front of the case toward the operator being provided with a suitable pedal-opening -a, and the whole case being mounted upon suitable casters or rollers -b which may be made adjustable, if desired, to vary the height of the player to adapt it to various heights of key-boards.

The main air-'eXhausting-device preferably consists of a pair of bellows 1 which are connected by passages 2 directly to an equalizing chamber, as a bellows 3, and are operated by suitable pedals1-4 through the medium of links I 5, the pedals -4 being hinged at their front ends to play in the pedal-openings -a'--. It will be observed that the movable walhofthe'bellows -1- isalso provided with one or more apertures --2'- opening to atmosphere, the passages -2- and- -2'--"bein g provided with suitable 1,097,7oe I by a conduit '6 to an exhaust-chamber 7 of the pneumatic key-action the condui t -6 including an upright exhaust-chest '8' having lower and upper chambers 9 and 10 which are separated bya transverse partition 1l, the lower chamber -9 being connected directly to the equalizing chamber -3-, and is provided with a lateral passage -l2 in one of its sides communicating with a; governing pneumatic. 'l8. The chamber 10 also communicates with the pneumatic 13-' through a passage 1 l and is connected at its upper end by a conduit 15- directly to the exhaust-chamber -7-- in the valve-shelf. The governing pneumatic -13 is attached to one side of 99 the air-chest 8 having the openings 12 and -lfli and serves to connect the chamber -9 with the chamber --10. This governing pneumatic l3 is provided with a movable wall -l6-carrying 5 a felt or other porous yalve 17 which is adapted to cover the opening 12 when the governing pneumatic -13 is deflated. Under such conditions the force of the air passing through the passage -l2- is materially reduced or subdued, but even when the opening 12 is entirely covered by the valve -1-7- the porosity of the latter enables the, air to sift slowly and noiselessly from the chamber l0-to the chamber +9 in orderto maintain at all times, more or less vacuum in the chamber 7 for the purpose of operating the key-striking pneumatics with greater or less force,

according to the position of the valve l7 o with reference to the opening 12-. The governing pneumatic 13 forms a part of the expression controlling device, and is, therefore, a part of the controlling mechanism for the key-action, as hereinafter more 15 fully described. The key-action proper consists of a series of key striking pneumatics 20' which are arranged in decks one above the other to overhang the key-board --B-, those ofone 12o deck being arranged in staggered relation with those of the other deck with the movable side at the top, and are each provided with a depending "key-striking plunger -21-, of special construction hereinafter described The key striking pneumatics -20 fdr the heavier bass-note keys ofthepiano are gradually reduced in capacity, that is, the areas of the movable sides of the key-striking neumatics for the bass keys 1m of the piano are gradually reduced from right to left, the object of this being'to gradually subdue the force of action of these pneumatics as the volume of the tone of the key increases, so that thebass tones will not appear too prominent, or sufiiciently so to obscure the higher tones.

, The exhaust-chamber 7-- is formed in a suitable valve-shelf 22 which contains a plurality of groups of primary pneumatics 23 and a corresponding number of groups of valves -24, one for each primary and itslcorresponding key-striking pneumatics 20, the exhaust-chamber 7 being common to allof the valves of each group. Each primary pneumatic is connected by a conduit --2 to a duct --96 which leads to one of the ducts or vents 27 of a tracker-bar -28, each of said primary pneumat-ics being also connected by comparatively small passa 29-- to the exhaust-chamber 7-. Each of the valves 2'-i plays between two ports 30 and 31, the port .30 communicating with the exhaustchamber -7 and also with one of the key striking neumatics by means of a conduit -32 whil the port 3l opens to atmosphere. The valves 24 are each provided with a depending stem which is guided in the port and has its lower end lying in close proximity to, butslightly separated from the diaphragm of the primary pneumatic -23. These valves '-Q4 are normally closed when the air vents 27 in the tracker-bar 28 are closed, but as soon as a perforation in the music-sheet, as 33-, is registered with one of the air ducts or vents -2-7, the corresponding primary pneumatic 2 is, immediately inflated by the inrush of atmospheric air, thereby elevating its valve 24- and connecting the exhaust-chamber 7 with one of the key-striking-pneumatics -'20, thereby suddenly deflating said key-striking-pneumatic and causing its plunger 21 to operate or depress its corresponding piano-key. As soon as the vent -27, which was previously opened, has been closed, the dead air in the pneumatic -23 is immediately exhausted through the restricted passage -29, thereby allowing the valve 2l to close the port 30- and open the port 3 1 to admit atmospheric air into the duct -32, and thence into the key-strikingpneumatio 20 for inflating the latter. In like manner, each of the key-striking pneumatics is operated when its correspimding tracker-duct 27- is opened, itbeing m, "erstood that each key-striking pneumatic controlled by an individualvalve 24 and its corresponding primary pneumatic 23. I

It will be observed that all of the primary 23 and valves --2lare a single v alve-shelf -22--, and in order to accomplish this arrangement, a series of primary neumatics 23 and their valves 2-r are grouped in line lengthwise of the shelf -22-- and are so connected to the key-striking pneumatic .of one deck, while another group of primary pneumatics :23 and their valves Q-:t-- are disposed in another longitudinal plane or line and are connected to the key-striking-pncumatics of the other deck, the pri mary pneumatics and their valves of one group being arranged in staggered relation to those of the other group, as best seen in Fig. 5. The upper and lower decks of the key-strikingpneumatics are mounted upon lengthwise bars or, su ports All and all respectively, and are flexibly connect.- ed by the conduits 32 to the valve-chest 22.

The keyoperating plungers -9l are guided in openings 41 in the lower bar 4l, the plungers for the black keys, which are narrowest, being of greater diameter than the plungers for the white keys, while the plungers for the white keys are of less diameter than the width of said white keys, the object of this being to permit a slightlongitudinal adjustment of the piano-player to conform to different keyboards without liability of displacing the key-striking plungers from alinement with their proper keys.-

The movable sides of the key-strikingpneumatics are provided with projecting fingers l2 having apertures in their outer ends for receivingthe stems or connecting rods --el3 of the plungers -2l s aid rods having their upper ends otlset dibent laterally and then upwardly through the apertured ends of the arms -l"2 and are therefore connected to their respective arms without the use of threaded stems or nuts and allow the parts to be easily and quickly assembled or taken apart.

The tracker 8 consists of a solid metal bar having a series ofvent openings --2T-- formed therein, the inner ends of the openings being drilled or bored part way through toward the outer surface and the remaining portions are punched out by suitable dies so to form apertures which are elongated transversely of the musicsheet,.or longitudinally of the tracker to about the diameter of the inner bore, but are con'iparat-ively narrow transversely of the tracker, or in the direction of movement of the music-sheet. The object. of forming this tracker from a solid piece of metal is to'obviate the usual joints, which are always more or less liable to leak. Farthermore, this tracker may be produced at a minimum cost by reason of the fact that the pneumatics mounted in labor and material necessary in securing secvents -27; of the tracker, the corresponding primaryvpneumatic 23 is inflated to operate its valve -2 l,' thereby closing the port -'-31- to atmosphere andopening the port 3(). so as to connect the exhaustchamber ,7 directly with the key-operating pneumatic corresponding to the open valve 24land its primary pneumatic 23-, which causes the instantaneous collapse of said key-striking-pneumatic to operate its plunger -21-, whereby the piano-key is operated with more or less force, accordin to the position of the valve l7+ with re erence to the port -12 of the expression controlling mechanishil;

I will now proceed to describe the expression controlling mechanism, whereby step-by-step gradatlon of expression may be produced.

It is clear from the foregoing'description that a partial vacuum is maintained in the main governing pneumatic 13- which tends to bring the valve 17- into position to cover the port 12-, and in order to regulate the degree of movement of the valve ..-17, I provide aseries of, in this instance four, smaller .p-neumatics -i6-, which are mounted upon a suitable support l-7.forming a part of the case and have their movable sides facing the movable side -l($ of the main governing pneumatic 13. The combined areas of these smaller pneumatics 4G, or rather of their movable sides, which are exposed to atmospheric pressure, is substantially equal to the similar area of the side 16- of the main governing pneumatic 13' so that when all of the pneumatic-s l(3 are in flated or'out of connection with the exhaust device, the main governing pneumatic '13 has a greater tendency to bring the valve -1'7 into position to co ver the port -l2, but this tendency-is counter-acted to a certain degree by a spring l8, Fig. i, which is so'adjusted as to allow the movable valve 17 to cover the port 12 'pneumatics w1ll be operated With still with a light pressure for producing a pianissimo effect, it being understood that thevalve 1"Z is finely porous to allow the air to sift therethrough even when covering the port. Each of these smaller pneumatics -46- is connected by a duct -49 to 'afiexible conduit'50- and these conduits are connected to suitable ports. in a pneumatic -13-'.

memos valve-board 5l upon which is movable a slide valve 5Q This valve-board is also provided with an exhaust-port which is connected by a flexible conduit -54 to the exhaust chamber 9- this con nection being best illustrated in Figs. 1, 2, 3

and 6. The slidevalve 52 has a chamas best seen in Fig. 1, so that by simply rocking this lever backward or forward the chamber -55" may be brought into registration with one or" all of the ports of the conduits 50- which connect them to the exhaust conduit 5%.

In Fig.4 :5 have shown the slide valve 52 in position to connect two of the pneumatics 46- to the exhaust-conduit 54=--, and therefore, these two pneumatics are deflated and ofier a certain resistance to the collapse of the pneumatic -13 each of said pneumatics i6- being connected by a separate flexible connection 58- to the, movable side -16- of the governing It is now clear that when the slide valve 52- is moved to the left, Fig. 4, so as to uncover all of the pprts of the conduits -5,0, which normally open to atmosphere, the pneumatics -46- will be inflated and the valve -17 will be free. to cover the port -12 to produce the softest or pianissimo expression. Now, assuming that the valve is moved to connect one of the pneumatics 46 with the exhaust conduit 5-l then a certain degree of resistance to the collapse of the main governing pneumatic -13- is introduced by reason of the partial vacuum in the pneumatic -4:6 which may be in communication with the exhausting device, thus causing thestriking pneumatics to operate with a slightly greater degree of force for piano expression. In like manner, if two of the pneumatics -4=6- are connected to the exhausting device the key-striking pneumatic will be operated with still greater force, representing the third degree, or mf expression, and so on if three pneumatics -46- are placed in communication with the exhausting device by the further movement of the slide valve -52- the key-strikinggreater force to give a forte expression, and if the fourth pneumatic l6 is brought into communication with the exhausting device, the key-strikingpneumatics will be operated with full ortissimo efiect. It is now apparent that the sliding 031- the valve -52- in one direction produces a gradual step-by-step expression from. pp. to f. and by sliding it in'the opposite direction, a step-by-step gradation of expressionfrom f. to pp. may be produced.

It is sometimes desirable to accentuate individual notes or chords during the rendition of a musical selection and for this purpose I provide the partition ll-, Figs. 3 and 4, with a port -11 which forms a direct communication between the chambers 9 and 10 of the air-chest -8-, and

' this port is provided with a normally closed valve 59 which is seated upon the diaphragm of a normally inflated pneumatic -60, as best seen in Fig. 3. This pneumatic '60 is connected by a conduit 61- to a port 62 which normally opens to atmosphere, and is preferably it'ormed in the hand-piece of a tempo-controlling lever, as -645, although this port 62 may be formed in any movable or fixed support within easy reaching distance of the operator. The valve 59 is maintained in this closed position by atmospheric pressure in the pneumatic,-60 as long as the port -62- 1s opened to atmosphere, and therefore, the exhaust chambers 9 and -10- are normally connected through the 7 medium of thegoverning pneumatic 13+ only. Now, assuming that the governing pneumatic 13 is adjusted through the medium of the lever --57,; valve 52, and pneumatics 46- to produce a certain pressure, softer than fortissimo then, if itis desired to accentuate any note or chord with full fortissimo force, during the playing of the main exhausting device and key-striking pneumatics to operate the latter. with full force, even though "the valve -l7 may be partially closed. This direct communication between the exhausting device and key-striking pneumatics will be maintained as long as the port --62 is closed, but as soon as the finger is removed to open theport, the inrush of atmospheric air into the pneumatic 60- will immediately inflate the latter and close the valve -59 and port- -11-, thereby restoring the normal expression, ascontrolled by the valve 17'.

I have thus far described the pneumatickey-action and its controlling devices including the means for regulating the stepby-step gradation of expression and also the means for accentuating any individual note or chord during the rendition of the selection, and I will now proceed to describe the means for winding and rewinding the music-sheet, by which the tempo is determined.

The music-sheet 33 is supplied upon a suitable roller which is adapted to be inserted in suitable bearings in the upper end of the case -A- at the rear of the tracker -28 and its free end is drawn forwardly over the tracker and is suitably attached to the periphery of a take up roller 7lwhich is located in front of and. in a plane beneath the tracker 28. The roller 70 from which the musicsheet is unwound, and upon which it is again re-wound is removable to permit difi'erent music-rolls to be inserted, but the winding roller- --71 is permanently journaled in 'the case and maybe provided with any suitable means to which the advance end of the music-sheet may be detachably connectled so as to automatically release on the rewind. As best seen in Fig. 1, the roller 7l' is provided with a ear -72- which meshes with a pinion 3 on a shaft -,'Z4. Loosely mounted upon the shaft is a sprocket-wheel 75 which is connectedby a chain -76 to a smaller sprocketwheel77 on the spindle of the rewind roller --70.'. The shaft 74 is movable endwise-suflicient to throw the pinion -73- out of mesh with the gear 72- and is pro vided with a clutch-section 78 which is secured to the shaft 74l and is adapted to interlock with a similarclutch section on the face -.of the sprocket 75, whereby when the pinion 73' is out of mesh'wit-h the gear -72- the shaft 74.-' is locked .to and operates to rewind the music-sheet ,with considerably greater speed than when wound upon the roller --71 by reason-of the fact that the sprocket-wheel -'77- is very much smaller than the sprocket-wheel- 75--. The clutch-member 78- is preferably made in the form of a sprocket-wheel and is connected by a chain or belt 79- to a sprocket-wheel 80- on a crank-shaft 81. This crank-shaft 8lis journaled at its ends in suitable bearings 82' and 83 and is provided with a series of,

in this instance four, crank-arms each be ing arran ed a quarter of a turn'in advance of the ot er' and. each crank is connected by a link -84'' to the movable side of a motor pneumatic 86. It now appears that there are four motorvpneumatics, one for each crank-arm, said pneumatics being successively brought into action for transmitting motion to the crank-shaft 8l-.

The exhaust-chamber -91- is connected by a conduit 11l to a valve chamber ;112 having two port-s 113 and -1l4, the port -'113 being tapered Ionpartial vacuum is maintained in the gov-' erning pneumatic --115-- which tends to move the valve ll6 into position to close the port 119, but-by reason of the porosity of the valve 116 a small amount of air is capable of sifting through the porous valve even when closed, and therefore, this valve. servem in a measure, to regulate the force of 'actibn of the. motorpneumatics, thereby determining the speed of the music-sheet and tempo of the selection. This tempo, however, is further regulatedby means of a valve 92, which is movable across the opening -113- and is connected by a link 12l to the tempolever -G-i, reviously mentioned-30 that by rocking this lever in one direction or the other the passage --l13 between the governing pneumatic -115- and passage -113 may be more or less restricted, thereby --controlling the force of action of the motor-pneumatics and speed of the music sheet when playing a musical selection. The port -1l4 is normally closed by a valve -l25-, the action of which is controlled by a small pneumatic 126 in the valve-shelf "rll7 The object of this port 114 valve 125, and its pneumatic -126- is to establish a more direct communication between, the main exhausting device and motor pneumatics for operating the latter with full force and with increasing speed in the rewinding of the musicsheet from the roller 71, to the roller '?0-. During thi's operat-ion, it is desirable to out 01? communication between the main exhausting device and key-action, and

for this purpose I provide a valve-shelf 130- with two ports '131 and 132 which are normallycovered by a valve 133-, but when uncovered, vare open to atmosphere. qOnelof these ports, as 181,

is connected by a flexible conduit 134 the small pneumatic -126-' while the .other port -l32 is connected by a coii dint +135 to a neumatic -'136-- in the upper portion of e chamber --10-'- of the exhaust chest It will be remembered that the upper'end of this chamber 10- is-connected by a conduit- 15- to the extherefore, the top of the case 8 is pro vided with a port -137-- which leads into the conduit 15-. Resting upon the mov- .able side of the pneumatic 136- is a valve -138 which is normally open, but is adapted to close the port 137- to out off communication between the exhaust-chamber l0 and exhaust-chamber -7 of the key-action. swinging the valve 133- to uncover both of the ports -131 and 132, atmospheric air is admittedto the neumatics -126 and 136- throughtheir respec tive tubes '134- and -135-', thereby causing the inflation of said pneumatics'to uncover the port 114 andto simultaneously close the port 137 by thefialve l3.8 ,vsee Figs. --4 and 7 This opening of the valve 125- establishes direct communication between the exhaust conduit -1l8 and exhaust-chamber 9l-, thereby cutting out the governing pneumatic 115- and at the same time the key-action is cut off from communication with the main exhausting device by the closingof the valve 138, The operation of the valve 133- to open the ports --131- and -132 to atmosphereis preferably acconiplished simultaneously with the shifting of the clutch-section 78- into engagement with the clutch section 75 .-;of the musicsheet driving mechanism for rewinding the music-sheet upon the roller and for this purpose I provide a hand-lever -140 withinconv'enient reaching-distance of the operator and connect this hand-lever by a link l4l and lever 142- to the clutchsection 78-, whereby when the lever 140- is moved in one direction the shaft 74 is moved endwise to disengage the pinion 73 from the gear -72- and at the same time to force the clutch -78- into driving connection with the sprocke wheel The lever -140 is also connected by'a' link -14 4 to the free end of the swinging valve 133- so that when the lever --14;0- is rocked to throw-the driving mechanism into connection with the rewinding roll 70 the ports -13i and 5l 32- are simultaneously uncovered to admit atmospheric air to the pneuinatios 126 and ,136- for the purpose previde a pedal-lever -150-which isse'curedo to a rock-shaft 151 and is'prov'ided'with a -crank-arm --152-at the rear. of the-case;

-A' said crank-arm being provided with :1 depending rod,-'l52' to which is attached a pedal operating arm .-153--, similar to what is shown in my pending applica* tion Serial'No; 109,692, filed May 31, 1902.

In order 'that'the operator may control It is now clear that by the tempo and expression in accordance withthe intention of the composer of the selection being played, the perforated musicsheet is provided with a tempo-line -cand an expression line -cwhich lines are visible upon the surface of the musicsheet as it travels over the windingroll T1--. A graduated plate or scale -(lis hinged at its lower edge to the'support and extends longitudinallyacross the front face of the music-sheet in front of the winding-roller 7 1- and its upper longitudinal edge bears lightly against the surface 'of the music-sheet either by gravity or by a suitable spring e. Theplate (Z- has two series of scales represented by vertical lines on the plate, Fig. 1, the lines for the tempo-scale being numbered to indicate various speeds of travel of the music-sheet and theu'pper end of the tempo- ,levcr 6#l is disposed in proximity to this scale and is movable transversely of its vertical lines so that as different parts of the tempo-line c on the music-sheet are registered with different vertical lines of the tempo-scale on the plate -cZ the upper end of the tempo-lever 64s is brought into registration with such lines on the scale plate -(Z to operate the valve -120-, and thereby control the tempo or speed of the music-sheet. In like manner, the expression scale on the plate -(Z- is provided with a series of vertical lines of sufiicient range to control the expression from to fl, and vice versa, as indicated. by the expression line c-- on the music-sheet and the expression controlling lever 57- has its upper end movable in proximity to the scale-plate Z- to register with either of the vertical lines of the expression scale so that as diffegent parts of the expression line --0- register with different lines on the expression scale, the upper end of the lever 57- is correspondin ly moved to register with such lines on tie expression-,-

scale, thereby operating the valve -52- to control the action of the small expressioncontrolling pneumatics -46 in the manner previously described.

I have previously described means controlled by the operator for acccuting individua-l notes or chords, but in some instances I may prefer to control this accentuation automatically, in which case the trackerar -28- will. be provided with an extra duct and the music-sheet will be formed with apertures at suitable intervals opposite to the note or chard which is to be accentuatedv and movable in registration with the extra duct in the tracker-board.

In 3 I have shown a duct l as leading from the extra accent-duct in the ,traclrei bar/ 2s to a 'suitable pneumatic chaving a movable diaphragm -fboth of which are located in the lower part connects the aperture -62. in the handlever -6i with the pneumatic +60- in the upper end of the chamber -9' so as to admit atmosphere to said pneumatic- 60 for normally holding' the valve 59 in position to close the-port -.11. The portion of the conduit -61- which enters the upper wall of the chamber ne forms a valve-seat for the valve flhe valve-chamber /Z and its pneumat c 7c are of considerable less area; than the area of the exhaust chamber G- and pneumatic -eto assure the instantaneous operation of the diaphragm --f-' when atmospheric air is admitted through the duct -d to the pneumatic e when the accenting-perforation in the music-sheet is registered with its corresponding duct in.

the tracker-bar. It will be seen upon reference to ,Fig. 1, that the diaphragin- -f has a small bleedin hole'-0.

I have already described the means for manually controlling the operation of the valve -59- by closing the aperture G2-- by the finger and I will now proceed to describe the operationof opening this valve ,-59 through the medium of the extra perforation in themusic-sheet and the corresponding duct in the trackergboard.

As soon as the accenting perforation of the music-sheet is registered with its corresponding duct in the tracke'rbar atmospheric air is admitted through the duct (Z into the pneumatic e-, thereby elevating the diaphragm f-, which in turn actuates the valve'-m upwardly against the overlying seat in the conduit ,-6l-, thereby closing said conduit and producing-the same effect upon the pneumatic -6O though the aperture -62 were closed by the finger. As soon as the exact perforation in the music-sheet leaves its tracker-duct, which is then closed, the air is immediately exhausted from the pneumatic -e through the bleed-hole 0- and is also exhausted from the pneumatic -kthrough the passage V z", thereby causing the diaphragms f said pneumatics, and also the valve 111;-

to drop to again open the passage throughthe conduit (3l--.

It will be observed that in my pending application No. 221,995, filed August 2%., 1904, the accentuation is controlled by openingeither manually or automatically :1 port which is normally closed to atmosphere while in this case it is controlled by closing a port which is normally open to atmosphere.

I chamber 9-; main expression governing 7 -27 of the tracker 28- the atmospheric pneumatic 13-; chamber 10, and exhaust-chamber '-'7-' ofthe key-action and also in the tempo-governing jpneumatic -1l5+ and exhaust chamber '9l-: otthe controlling mechan1sm.

motor-pneumatic v In the key action it has been stated that a partial vacuum is maintained in the chamber 7, and therefore, when a perforation in the music-sheet is'registered with the vent air enters and inflates the primarypneumatic 23- to operate the valve 24 and establish communication between the vacuum-chamber 7- and one of the keystriking-pneumatics in the manner previously described. lhe force of action of these key-striking pneumatics, or expression is controlled by means ofthe lever 57 and valve 52. The accentuation of any individual note or chord is controlled by closing the duct 61 against atmosphere, which in this instance, normally communi cates with atmosphere through an opening in the hand-piece of the tempo-lever -64, a s'best' seen in Fig. 3, whereby the valve 59- is caused to'uncover the port -58 to establish direct communication between the main exhaust device and key-action.

- In rewin'ding the music-sheet the lever 1 l0 is operated in the manner previously described to disconnect the drivingshafts 13 from the roller 71, and at the same time toconnect it to the rewinding roller 70-. During this operation thevalve, +133 is operated to uncover the ports -131-- and 1 32, thereby admitting atmospheric air to the pneumatic -126, Fig. 7, and also to. the pneumatic 136, Fig. 8, to close the port -137, thereby establishing direct communication between the main exhaust device. and. vacuum-chamber 9l of the motor-pneumatics, and at the same time, cutting communication between tbe'main exhaust device and chamber of the key-action.

' Having thus fully described my invention,

what I- claim and tore Patent, is-- 1. In a self-playing musical instrument,

desire ,to secure by Letstriker pneumatics, avalve chest flexibly connected to said'pneumatics, a plurality of groups .ofvivalves' and corresponding groups of primary Pneumatics within the valve chest, said valve chest having an exhaust chamber common to all of the valves and primary pneumatics, means including a perforated music sheet for controlling the action-of the primary Pneumatics, and an exhaust; device connected to the valve chest.

2. In a self-playing musical instrument, striker pneumatics, a valve chest flexibly connected to said'pneumatics, a plurality of groups of valves and corresponding groups of primary pneumatics within the valve chest said valve chest having an exhaust chamber common to'all of the valves and primary Pneumatics, means including a perforated music-sheet for controlling the action of the primary pneumatics, an exhaust device connected to the valve chest, and an expression governing pneumatic connected to and between the exhaust device and valve chestl 8. In a self-playing musical instrument, striker pneumat-ics, a chest flexibly connected to said pneumatics, aplurality of groups of valves and corresponding groups of primary pneumatics within the valve chest, said valve chest having an exhaust chamber common to all of the valves and primary pneumatics, means including a perforated music sheet for controlling the action of the primary pneumatics, an exhaust device connected to the valve chest, a valve in the connection between the exhaust device and valve chest, a pneumatic controlling the action of saidvalve and having a vent to atmosphere, and manually controlled meansfor closing said vent.

4-. In a self-playing musical instrument, striker pneumatics, a valve chest flexibly connected to said pneumatics, a plurality of groups of valves and corresponding groups of primary pneumatics within the valve chest, said valve chest having an exhaustchamber common to all of the valves and primary pneum-atics, means including a perforated music sheet for controlling the action of the primary pneumatics, an exhaust device connected to the valve chest, an expression governing pneumatic connected to and between the exhaust device and valve chest, and means separate from the expression pneumatic forcontrolling direct commnnication between the exhaust device and valve chest. l

5.111 a self-playing jmus ical instrument,

striker pneumatics, a valve chest flexibly chamber common to all .of'the valves and primary pneumatics, means including a perforatcd music sheet for controlling the action of the primary pneumatics, an exhaust device connected to the valve chest, direct and indirect connections between the exhaust device and valve chest, an expression pneumatic forming a part of the indirect connection, a valve in the direct connection, a pneumatic for actuating said valve and having a vent opening to atmosphere, and means for closing said vent at will.

6. vIn a self-playing musical instrument, striker pneumatics, a valve chest flexibly connected to said pneumatics, a plurality of groups of valves and corresponding groups of primary pneumatics within the valve chest, said valve chest having an exhaust chamber common to all of the valves and primary pneumatics, means including a perforated music-sheet for controlling the action of the primary pneumatics, an exhaust device connected to the valve chest, a rewindingmechanism for the music sheet, a pneumatic motor for actuating said mechanism, means for connecting and disconnecting said mechanism to and from the-motor,

and additional means for cutting ofi' communication between the exhaust device and. valve chest whenthe rewindin-g mechanism 1s connected to the motor.

7. In a self-playing musical instrument,

striker pneumatics, a valve-chest-flexibly connected to said pneumatics, a plurality of groups of valves and corresponding groups of primary pneumatics within the valve chest, said valve chest having an exhaust chamber common to all' of the valves and primary pneumatics, means including a' per forated music-sheet for controlling the action of the primary pneumatics, an exhaust device connected to the valve chest, an expression governing pneumatic connected to and between the exhaust device and valve chest, a valve in the connection between the expression pneumatic and valve chest, a separate pneumatic compo Hing the action of said valve and having-a vent atmosphere, and means for opening an closing said vent.

8. In a self-playing musical instrument, a series of striker pneumatics, a music sheet, a tracker bar, an air exhaust device, a valve chest having a vacuum chamber connected to the exhaust device, primaryv pneumatics connected to the tracker bar, valves operated by the primary neumatics for connecting the vacuum chamber to the striker neumatics, direct connections between the exhaust device and vacuum chamber including therein a pneumatic regulator, a series of resistance pneumatics connected to the pneumatic regulator, an exhaust port communicating with the exhaust device, atmosphere ports each communicating with one of the resist ance pneumatics, and means under the control of the operatonfor connecting one or more ofthe atmosphere ports with the exhaust port. I

9. In a self playing musical instrument, a pneumatic action having a wind chest, an exhaust device, a valve-chest connected directly to and between the exhaust device and wind chest, an accent valve and operating pneumatic therefor both located in the valve chest and controlling direct communication between the exhaust device and wind chest, and an expression governing pneumatic connected to the valve chest at opposite sides of the accent valve.

10. In a self-playing musical instrument, an exhaust device, a pneumatic action having a wind chest, a direct connection between the exhaust device and wind chest, an accent valve in said connection, manually controlled'pneuinatic means controlling the op eration of said valve, and a by-pass around the valve comprising an expression governing pneumatic, a normally open shut-ofi' valve in the connection between the by-pass and wind-chest, and means for closing said shut-off valve.

11. In itself-playing musical instrument, an exhaust device, apneumatic action having a wind chest, a direct connection between the exhaust device and wind chest, an accent valve in said connection, manually controlled pneumatic means controlling the op-' eration of said valve, a lay-pass around the valve comprising an expression governing pneumatic, a normally open shut-off valve in the connection between the by-pass and wind-chest, and manually controlled pneumatic means for closing said valve.

12. In a self-playing musical instrument, a pneumatic sound producing action and an air exhaust device, an air chest connected to and between the air exhaust device" and action, a cut-ofi' valve in said air chest, a separate accent valve also in the air'chest, separate pneumatics located within the air chest for cont-rolling saidvalves, and sepa* rate devices for controlling the action of said pneumatics. v e

13. In a self-playing musical instrument, a pneumatic sound producing action, an air exhaust device, an air'chest connected to and between the exhaust device and action, a

partition in the air chest having a port w therein, an accent valve forv said port, a pneumatic within the air-chest controlling the action of saidvalve and having a ventto atmosphere, andmeansfor closing said vent. 7

14. In a self-playing musical instrument, the combinationiof a perforated music sheet and tracker bar, a valve chest below the tracker bar, separate groups of valves and their primary pneumatics within the valve chest, said valve, chest havinglan exhaustj chamber common to all the valves strike'r "paieumatics between the tracker bar and valvechest and overhanging the key-board of the piano, separate flexible conduits, one

for each valve, leading fromthe valve chest to the striker pneumatics, separate conduits leading from the primary pneumatics to the tracker-bar, an air exhaust device, an air chest having a normally open valved-port I leading to the exhaust chamber of the valve a pneumatic sound producing action,'in com bination with an air exhaust device, an air chest connected to and between the exhaust device and action, a cut-0d valve and actuating' pneumatic therefor within said air chest, said valve actuating pneumatic having a normally closed vent to atmosphere and a valve for said vent.

16. In a self-playing musical instrument, a sound producing action and an air exhaust device, an air chest connected to and between the exhaust device and action, a cut-off'valve within said air chest for opening and closing communication between the exhaust device and sound produbi'ng action, an actuating pneumatic for said valve located within and communicating through a bleed hole with the interior of said air chest, and manually controlled means for placing; said pneumatic in communication with the atmosphere to close the valve.

17. In a self-playing musical instrument,a pneumatic sound producing action and an exhaust device, an air chest connected to and between the exhaust device and action and provided with a pair of ports in one side, a partition dividing the interior of the 'air chest between said ports and provided with anair passage connecting the compartments at opposite sides of the partition, an expression governing pneumatic covering said ports and forming a by-pass for the air around the partition, an accenting valve for the passage in the partition and an actuating pneumatic therefor. I

18. In a self-playing musical; instrument, a pneumatic sound producing action and an air exhaust device, an air chest connected to and between the 'exhaust device and action, an accenting. valve audits actuating pneumatic both; within the air chest, said pneuwitli the interior of the air chest, and means for-"normally admitting air tothe valve aotuating pneumatic."

19. In a self-playing musical instrument,- a sound producing action and a'n'air exhaust matic' connnunicating through a bleed hole memos device, an air chest connected to and between partments. said partition having an air passage therethrough connecting said compartments, an expression governing pneumatic connecting said ports outside of the air chest, an accent valve and actuating pneumatic therefor located within the air chest and normally closing said air passage, said pneumatic normally communicating with the atmosphere and having a comparatively small bleed hole opening into the interior of the air chest, and means for closing communication between said accenting pneumatic and atmosphere, whereby the pneumatic'is deflated to open the valve.

"20'. In a self-playing musical instrument, a sound producing action, an exhaust device, a conduit connected directly to and between the exhaust device and action, an accent valve and controlling pneumatic therefor located in the conduit, a hollow movable conduit connected to the pneumatic and adapted to be opened and closed to the atmosphere for efi'ecting the inflation and deflation of the pneumatic and thereby controlling the action of the accent valve, said pneumatic having a bleed hole communicating with the interior of the conduit.

21. In a self-playing musical instrument,

a sound producing action, an exhaust device, connections between the exhaust device and sound produclng action, a valve in said connections controlling communica-' tion between the exhaust device and sound n'oducin action a neumatic controllin .a 7 D the action of said valve,'and a movable air conduit connected to the pneumatic and adapted to be opened and closed to atmosphere.

4 22. In a self-playing musical instrument, a pneumatic action, an exhaust device connehfed to said action, a valve controlling said action, pneumatic controlling the valve, a movable air conduit connected to the valve'controlling pneumaticand adaptedto be opened and closed to atmosphere for controlling the inflation and deflation of the pneumatic and thereby controlling the'operation of the valve. v

23. In a selfplaying musical instrument, a pntumatic action, an exhaust device connected to said action, a valve controlling said action, a pneumatic controlling the valve, a movable air conduit connected to the valve controlling pneumatic and adapted to be'opened and closed to atmosphere for controllingthe inflation and deflation of the pneumatic and thereby controlling the operation of the valve, said valve coutrolling pneumatic having a bleed hole communicating with the exhaust device.

an exhaust device,

"closing 24. In a self-playing musical instrument, an exhaust device, a valve chest connected directly to and between the exhaust device and action, an accent valve and controlling pneumatic therefor in the valve chest, the valve controlling pneumatic having a bleed hole communicating with the interior of the valve chest, and a movable conduit connected to the valve controlling pneumatic and adapted to be opened and closed to atmosphere for causing the inflation and deflation of said valve controlling pneumatic and thereby, controlling the action of the valve. 7

25. In a self-playing musical instrument, a valve chest connected directly to and between the exhaust device and action, an accent valve and controlling pneumatic therefor in the valve chest,'the valve controlling pneumatic having a bleed hole communicating with the interior of the valve chest, and a movable conduit connected to'the valve controlling pneumatic and adapted to be opened and closed to atmosphere for causing the inflation and deflation of said valve controlling pneumatic and thereby controlling the action of the valve, a shutofi" valve in the valve chest, a primary pneumatic controlling the shutoffvalve, and a conduit connected to the pneumatic for the shut-off adapted to be opened and closed to atmosphere.

26. In a self-playing musical instrument, an exhaust device and a valve chest having a sound producing action, a direct windway connecting the exhaust device to said valve chest, an accenting pneumatic normally the passage of air through said windway and having a vent to atmosphere adapted to be closed by the finger and an expression governing pneumatic communicating with the direct passage.

27. In a self-playing musical instrument, an exhaust device and a sound producing action, a conduit connecting the exhaust de vice with saidaction and provided with a transverse partition having a port therethrough, said conduit having additional ports at opposite sides of the partition, an expression governing pneumatic connecting said additional ports, an acccnting pneumatic controlling the passage of air through the first named port, and means for controlling the action of said accenting pneumatic.

28. In a self-playing musical instrument, an exhaust device and a sound producing action, a conduit connecting said device with said action and provided with a transverse partition having a port therethrough, said conduit being also provided with additional ports at opposite sides of the partition, an expression governing pneumatic connecting said additional ports, a valve normally valve and closing the first named port, an; additional pneumatic normally communicating with atmosphere to hold said valve closed, said additional pneumatic having communication with the exhaust device, and means for closing communication between said additional pneumatic and atmosphere, whereby said pneumatic is deflated to open the valve.

29. In a self-playing musical instrument, an expression controlling mechanism, a tempo controlling mechanism, a lever con trolling the action of one of said mechanisms, an aecenting pneumatic having an air vent to atmosphere terminating in said lever and opened and closed manually to control the operation of the aecenting pneumatic.

30. In a pneumatic self-playing musical instrument, a soundproducing action, an exhaust device, a direct connection between the exhaust device and sound producingaction, a valve and operating pneumatic therefor controlling the direct passage of .air through said connection, a lever connected to and actuating one of the parts of the instrument and having an opening to-atmosphere adapted to be opened and closed at the will of the operator, and a conduit connecting the opening in said lever with said pneumatic.

31. In a self-playing musical instrument, an air-exhausting sound producing action connected thereto, an accenting valve, an actuating pneumatic therefor in the connection between the exhaust device and said act-ion, and a cut-off valve and its actuating pneumatic also in said connection between the accent valve and pneumatic sound producing action.

32. In a self-playing musical instrument,. .an air exhausting device and a pneumatic sound producing action connected thereto, an accenting valve n the connection between the exhaust device and action, and a pneumatic actuating device for said valve, and an expression pneumatic" communicating with said connection at opposite sides of the accent valve.

33. In a pneumatic self-playing musical instrument, a sound producing action, an exhaust device, a conduit connected directly to and between the exhaust device and action, separate valves and separate actuating pneumaties all within said conduit and controlling the passage 01 air through said conduit, and separate devices for controlling the action of said pneumaties.

34. In a pneumatic self-playing musical instrument, an exhaust device, a pneumatic sound producing action, a conduit connected directly to and betweenthe exhaust device and action, a pneumatic regulator o1nmun-i'- eating with the conduit, resistance pneuniatics connected to the movable side of the pneui'natic regulator, and means for placing one or more of said resistance pneumatics device and a pneumatic alternately in connection with the atmoszv here and with the exhaust device.

'35. In a self-playing musical'instrument, anwexhaust device and sound producing acgion, direct connections between said device v nd action, an accenting device including a pne umatic in said connection and normally ,cmrimuniczttingwith the atmosphere, and

means for cutting off such communication at will. 1; I v

36. In a self-playing musical instrument,

a sound producing action-, an exhaust device,

said action at opposite sides of the valve and its operating pneumatic.

37. In a pneumatic self-playing musical instrument, an air exhaust device and a valvec-hest connected thereto, a manual connected to one of the parts of the instrument and containing an aperture open to atmosphere, a valve in the connection between the exhaust device and valve chamber, and a pneumatic connected to said aperture whereby the valve is held closed by atmospheric pressure, said aperture being closed by the hand" of the operator to allow the valve to open. In witness whereof I have hereunto set my hand this eth day of February 1905.

' LEWIS B. DOMAN. Witnesses:

Mrs. THOMAS ELLIOTT,

NETTIE A. BnsBros.

Copies of this patent may he obtained for five cents each, by addressing the Commissioner o! Patents,

Washington, D. G." 

